Sakhaei, A.H.Lim, K.-M.Thamburaja, P.MECHANICAL ENGINEERING2014-10-072014-10-072013Sakhaei, A.H.,Lim, K.-M.,Thamburaja, P. (2013). A link between the phenomenological and physical modelling of transformation-induced plasticity. Computational Plasticity XII: Fundamentals and Applications - Proceedings of the 12th International Conference on Computational Plasticity - Fundamentals and Applications, COMPLAS 2013 : 1403-1414. ScholarBank@NUS Repository.9788494153150https://scholarbank.nus.edu.sg/handle/10635/85856In high temperature shape memory alloys, the inelastic deformation mechanism is a combination of the transformation strain, viscoplastic strain in austenitic and martensitic phases, and transformation-induced plasticity. The latter is a consequence of the effect of austenite↔martensite transformation on the dislocation dynamics. In this study, the effect of the martensitic plates in microstructure, in the case of the internal stress field, is shown by a theoretical solution of the martensitic inclusions. The one-dimensional phenomenological continuum model is presented to predict the macroscopic behavior of a sample high temperature shape memory alloy by making a link between the internal stress field of the microstructure and the phenomenological model.Constitutive modelHigh temperature shape memory alloyInclusionMartensitic transformationConference PaperNOT_IN_WOS